Paper Title:
Underwater Explosive Welding of Thin Magnesium Plate onto some Metal Plates
  Abstract

Explosive welding of a thin magnesium plate onto some metal plates was performed by using underwater explosive welding technique developed by some of the authors. The experimental results show that the wavy interface which is typically found in the well-bonded clad was observed. The welding condition is discussed using the welding window based on the numerically simulated results using AUTODYN-2D code.

  Info
Periodical
Edited by
S. Itoh and K. Hokamoto
Pages
303-308
DOI
10.4028/www.scientific.net/MSF.566.303
Citation
A. Mori, K. Hokamoto, M. Fujita, "Underwater Explosive Welding of Thin Magnesium Plate onto some Metal Plates", Materials Science Forum, Vol. 566, pp. 303-308, 2008
Online since
November 2007
Export
Price
$32.00
Share

In order to see related information, you need to Login.

In order to see related information, you need to Login.

Authors: Shu Huang, Jian Zhong Zhou, Yi Bin Chen, C.D. Wang, X.D. Yang, Y.C. Dai
Abstract:An appropriate finite element analytical model for laser compound forming (LCF) was established with ABAQUS code, and then some key technical...
3857
Authors: Mitsuhiro Watanabe, Shinji Kumai
Abstract:Magnetic pulse welding was applied to the lap joining of similar (Al/Al) and dissimilar materials (Al/Fe, Al/Cu, and Al/Ni). The magnetic...
755
Authors: Rui Ling Jia, Hong Ping Duan, Feng Guo, Xi Wei Zhai, Ya Hong Liang
Abstract:Aluminium plate was cladded to magnesium alloy plate by using the explosive welding. The bonding morphology and composition of the explosive...
1248
Authors: Li Zhou, Shu Tao Huang, L.F. Xu
I. Advanced Manufacturing Technology and Equipment
Abstract:A new setup for polishing of diamond films on a high speed rotating stainless plate has been developed, and a rare earth metal plate was used...
137
Authors: Wojciech Skuza, Henryk Paul, Katarzyna Berent, Mariusz Prazmowski, Piotr Bobrowski
Chapter 7: Modelling of Metal Forming Technologies
Abstract:In this study, unalloyed titanium (Gr.1) and deoxidized high phosphorus copper plates were joined through explosive welding process....
464